Intelligent integration concepts for passive components, sensors and power converters

Enhanced sustainability by improving recyclability and alleviating the dependency on rare-earth magnets.

In particular the safety issues of the next Generation EV will be improved by developing and integrating:

Redundancy concepts at different subsystem levels

Sensors in combination with advanced control algorithms and powerful multi-core ECU’s

Enhancing Intelligence with embedded software in a highly distributed control system

Tasks

Simulation an Development of novel EV-Powertrain Concepts an Components targeting the Controller-, Switching- and Actuator Layer

The project addresses the highly challenging research on power and high voltage electronic systems beyond state of the art. Smart miniaturized systems including subsystems, system layers and vehicle demonstrators will be derived. Via the interaction of all powertrain systems layers it is possible to comprise the full supply chain for EVs (Figure 2).By increasing energy efficiency, reliability and safety of electric vehicles combined with significant cost reductions (e.g. through innovative integrated packaging approaches for the joint use of the engine cooling systems and power electronics as well as new manufacturing processes), and opening up of the standardization potentials for different levels of control, MotorBrain shall enable the market breakthrough for electro mobility. In detail this progress shall be achieved within the 8 Supply Chains:

Supply Chain 1Â (Lead by CRF): Smart integrated EV powertrain based on low power SMC e-motor for distributed propulsion with integrated power electronics and passive components

Since the development plans are challenging and ambitious - MotorBrain under the lead of Infineon - has brought together some of the most powerful European companies and research institutes, such as CRF, Siemens, ZF, ST, AVL and VW. The hole consortium provides an outstanding knowledge mix to meet needs of the next Generation EV-Powertrains.